Non-2NS blast resistant wheat genotypes evaluated in the Brazilian Cerrado

Autores

  • Natália Forchezato Webber UPF
  • Maurício Antônio de Oliveira Coelho EPAMIG
  • Gisele Abigail Montan Torres Embrapa
  • Paulo Roberto Cecon UFV
  • Luciano Consoli Embrapa
  • Carolina Cardoso Deuner UPF

Palavras-chave:

Triticum aestivum, Magnaporthe oryzae, brusone, incidence, productivity

Resumo

Searching for novel sources of resistance to head blast is essential to strengthen wheat production in the Cerrado´s biome. The objective of this work was to evaluate disease intensity measures and yield for 2NS and non-2NS carriers wheat genotypes with varying heading times in Minas Gerais, Brazil. A total of fourteen wheat genotypes, two susceptible and twelve resistant to head blast, were sown in 2014, 2015, and 2017 at the Sertãozinho Experimental Station of Empresa de Pesquisa Agropecuária de Minas Gerais (Epamig) during three sowing dates without fungicide applications. The experimental design was a randomized complete block with three replicates. Blast incidence, severity, disease index and grain yield were influenced by the cycle of wheat genotypes and the sowing date, with the highest disease intensities and the lowest yields in the earliest sowing date. Blast incidence and disease index correlated negatively with grain yield and positively with percent yield losses. The group of wheat genotypes with higher grain yield (between 2,104.7 and 2,917.8 kg ha-1) and lower yield losses (between 44.3 and 54.8%) includes BR 18 as well as other five that do not carry the 2NS/2AS translocation: BRS Angico, PF 909, BRS 229, Embrapa 27, and CPAC 07340.

Referências

Albrecht JC, Ribeiro Junior WQ & Silva MS (2007) Cultivares de trigo para o Cerrado. In: Faleiro FG & De Sousa E dos S (Eds.) Pesquisa, desenvolvimento e inovação para o Cerrado. Planaltina, Embrapa Cerrados. p.61-68.

Arruda MA, Bueno CR, Zamprogno KC, Lavorenti NA & Urashima AS (2005) Reação do trigo à Magnaporthe grisea nos diferentes estádios de desenvolvimento. Fitopatologia Brasileira, 30:121-126.

Cardoso CAA, Reis EM & Moreira EN (2008) Development of a warning system for wheat blast caused by Pyricularia grisea. Summa Phytopathologica, 34:216-221.

Coelho MA de O, Torres GAM, Cecon PR & Santana FM (2016) Sowing date reduces the incidence of wheat blast disease. Pesquisa Agropecuária Brasileira, 51:631-637.

Conab - Companhia Nacional de Abastecimento (2022) Tabela de dados - Produção e balanço de oferta e demanda de grãos. Março 2022. Available at: <https://www.conab.gov.br/info-agro/safras/graos>. Accessed on: Mar 30th 2022.

Cruppe G, Cruz CD, Peterson G, Pedley K, Asif M, Fritz A, Calderon L, Da Silva CL, Todd T, Kuhnem P, Singh PK, Singh RP, Braun H-J, Barma NCD & Valent B (2020) Novel sources of wheat head blast resistance in modern breeding lines and wheat wild relatives. Plant Disease, 104:35-43.

Cruz CD & Valent B (2017) Wheat blast disease: Danger on the move. Tropical Plant Pathology, 42:210-222.

Cruz CD, Peterson GL, Bockus WW, Kankanala P, Dubcovsky J, Jordan KW, Akhunov E, Chumley F, Baldelomar FD & Valent B (2016) The 2NS translocation from Aegilops ventricosa confers resistance to the Triticum pathotype of Magnaporthe oryzae. Crop Science, 56:990-1000.

Cruz CD, Santana FM, Todd TC, Maciel JLN, Kiyuna J, Baldelomar DF, Cruz AP, Lau D, Seixas CS, Goulart ACP, Sussel AA, Schipanski CA, Chagas DF, Coelho M, Montecelli TDN, Utiamada C, Custódio AP, Rivadeneira MG, Bockus WW & Valent B (2019) Multi-environment assessment of fungicide performance for managing wheat head blast (WHB) in Brazil and Bolivia. Tropical Plant Pathology, 44:183-191.

Cunha GR da, Pasinato A, Pimentel MBM, Haas JC, Maluf JRT, Pires JLF, Dalmago GA & Santi A (2011) Regiões para trigo no Brasil: ensaios de VCU, zoneamento agrícola e época de semeadura. In: Pires JLF, Vargas L & Cunha GR da (Eds.) Trigo no Brasil: bases para produção competitiva e sustentável. Passo Fundo, Embrapa Trigo. p.27-40.

Dianese A de C, Zacaroni AB, Souza BCP de, Pagani APS, Pinheiro NO, Gomes EM de C, Torres GAM, Consoli L & Café-Filho AC (2021) Evaluation of wheat genotypes for field resistance to wheat blast caused by Magnaporthe oryzae pathotype Triticum (MoT) and correlation between yield loss and disease incidence in the Brazilian Cerrado. Euphytica, 217:84.

Farias AR, Mingoti R, Holler WA, Spadotto CA, Lovisi Filho E, De Mori C, Cunha GR da, Dossa AA & Só e Silva M (2016) Potencial de produção de trigo no Brasil a partir de diferentes cenários de expansão da área de cultivo. Passo Fundo, Embrapa Trigo. 40p. (Boletim de pesquisa e desenvolvimento online, 85).

Ferreira JR, Torres GAM, Consoli L, Binneck E, Camilotti GA, Scagliusi SMM, Deuner CC, Dianese A de C, Goulart ACP, Seixas CDS & Coelho MA de O (2020) Genetic and molecular basis of wheat-Magnaporthe oryzae Triticum interaction. In: Kumar S, Kashyap PL & Singh GP (Eds.) Wheat blast. Boca Raton, CRC Press. p.69-104.

Giraldo P, Benavente E, Manzano-Agugliaro F & Gimenez E (2019) Worldwide research trends on wheat and barley: a bibliometric comparative analysis. Agronomy, 9:352.

Gomes DP, Rocha VS, Pereira OL & Souza MAD (2017) Damage of wheat blast on the productivity and quality of seeds as a function of the initial inoculum in the field. Journal of Seed Science, 39:66-74.

Goulart ACP & Paiva FA (2000) Perdas no rendimento de grãos de trigo causadas por Pyricularia grisea, nos anos de 1991 e 1992, no Mato Grosso do Sul. Summa Phytopathologica, 26:279-282.

Goulart ACP, Sousa PG & Urashima AS (2007) Danos em trigo causados pela infecção de Pyricularia grisea. Summa Phytopathologica, 33:358-363.

Islam MT, Croll D, Gladieux P, Soanes DM, Persoons A, Bhattacharjee P, Hossain SMd, Gupta DR, Rahman MdM, Mahboob MG, Cook N, Salam MU, Surovy MZ, Sancho VB, Maciel JLN, Nhani Júnior A, Castroagudín VL, Reges JT de A, Ceresini PC, Ravel S, Kellner R, Fournier E, Tharreau D, Lebrun M-H, McDonald BA, Stitt T, Swan D, Talbot NJ, Saunders DGO, Win J & Kamoun S (2016) Emergence of wheat blast in Bangladesh was caused by a South American lineage of Magnaporthe oryzae. BMC Biology, 14:84.

Juliana P, He S, Kabir MR, Roy KK, Anwar MdB, Marza F, Poland J, Shretha S, Singh RP & Singh PK (2020) Genome-wide association mapping for wheat blast resistance in CIMMYT´s international screening nurseries evaluated in Bolivia and Bangladesh. Scientific Reports, 10:15972.

Juliana P, He X, Marza F, Islam R, Anwar B, Poland J, Shrestha S, Singh GP, Chawade A, Joshi AK, Singh RV & Singh PK (2022) Genomic selection for wheat blast in a diversity panel, breeding panel and fullsibs panel. Frontiers in Plant Science, 12:745379.

Kohli MM, Mehta YR, Guzman E, De Viedma L & Cubilla LE (2011) Pyricularia blast–a threat to wheat cultivation. Czech Journal of Genetics and Plant Breeding, 47:S130-S134.

Maciel JLN, Ceresini PC, Castroagudin VL, Zala M, Kema GH & McDonald BA (2014) Population structure and pathotype diversity of the wheat blast pathogen Magnaporthe oryzae 25 years after its emergence in Brazil. Phytopathology, 104:95-107.

RCBPTT - Reunião da Comissão Brasileira de Pesquisa de Trigo e Triticale (2020) Informações técnicas para trigo e triticale - safra 2020. Passo Fundo, Biotrigo Genética. 255p.

Rios JA, Rios VS, Paul PA, Souza MA, Araujo L & Rodrigues FA (2016) Fungicide and cultivar effects on the development and temporal progress of wheat blast under field conditions. Crop Protection, 89:52-160.

Rios JA, Rios VS, Paul PA, Souza MA, Neto LBMC & Rodrigues FA (2017) Effects of blast on components of wheat physiology and grain yield as influenced by fungicide treatment and host resistance. Plant Pathology, 66:877-889.

Savary S, Ficke A, Aubertot JN & Hollier C (2012) Crop losses due to diseases and their implications for global food production losses and food security. Food Security, 4:519-537.

Shankar M, Reeves K, Bradley J, Varischetti R & Loughman R (2021) Effect of varietal resistance on the yield loss function of wheat to nodorum blotch. Plant Pathology, 70:745-759.

Tembo B, Mulenga RM, Sichilima S, M’Siska KK, Mwale M, Chikoti PC, Singh PK, He X, Pedley KF, Peterson GL, Singh RP & Braun HJ (2020) Detection and characterization of fungus (Magnaporthe oryzae pathotype Triticum) causing wheat blast disease on rain-fed grown wheat (Triticum aestivum L.) in Zambia. PLOS ONE, 15:e0238724.

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Publicado

2025-06-03

Como Citar

Forchezato Webber, N., de Oliveira Coelho, M. A., Montan Torres, G. A., Cecon, P. R., Consoli, L., & Cardoso Deuner, C. (2025). Non-2NS blast resistant wheat genotypes evaluated in the Brazilian Cerrado. Revista Ceres, 70(3), 105–113. Recuperado de https://ojs.ceres.ufv.br/ceres/article/view/8127

Edição

v. 70 n. 3 (2023)

Seção

PLANT HEALTH

Licença

Creative Commons License
Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.

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